Characterising a unique recreational hunting method: hound hunting of sambar deer (Cervus unicolor) in Victoria, Australia
Jordan O. Hampton A B * , Andrew J. Bengsen C D , Sebastien Comte C , Jason S. Flesch E , Simon D. Toop E , Christopher Davies F H and David M. Forsyth C GA Faculty of Science, University of Melbourne, Parkville, Vic. 3052, Australia.
B Harry Butler Institute, Murdoch University, 90 South Street, Murdoch, WA 6150, Australia.
C Vertebrate Pest Research Unit, New South Wales Department of Primary Industries, 1447 Forest Road, Orange, NSW 2800, Australia.
D Biosphere Environmental Consultants, South Lismore, NSW 2480, Australia.
E Game Management Authority, Level 2, 535 Bourke Street, Melbourne, Vic. 3000, Australia.
F Australian Deer Association, PO Box 299, Warragul, Vic. 3820, Australia.
G School of Biological, Earth and Environmental Sciences, University of New South Wales, Sydney, NSW 2052, Australia.
H Present address: Parks Victoria, 65 Church Street, Morwell, Vic. 3840, Australia.
Wildlife Research 50(9) 657-668 https://doi.org/10.1071/WR22117
Submitted: 29 June 2022 Accepted: 3 November 2022 Published: 9 December 2022
© 2023 The Author(s) (or their employer(s)). Published by CSIRO Publishing. This is an open access article distributed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License (CC BY-NC-ND)
Abstract
Context: Scent-trailing dogs (‘hounds’) are used to hunt introduced sambar deer (Cervus unicolor) in south-eastern Australia, but little is known about this recreational hunting technique.
Aim: The aim of this study was to characterise hound hunting of sambar deer in Victoria, Australia. Our study had three objectives as follows: (1) to report the hunting success of the technique; (2) to estimate pursuit times and distances; and (3) to investigate the landscape features associated with kill sites.
Methods: Data were collected from four hound-hunting crews during 2020–2021. GPS data from collars fitted to hounds were used to quantify hunt duration (min) and hunt distance (m). Logistic regression was used to estimate the effects of deer sex and hound pack size on the probability of hunting success. We used a Bayesian multinomial regression resource selection function (RSF) to identify the characteristics of sites where deer were killed (elevation, aspect, and distances to water and roads).
Key results: The four hunting teams ranged in size from 2 to 10 people and from one to eight hounds. Of 136 hunts, most (88%) harvested a deer, with pursued deer escaping on the other 12% of occasions. Pursuit times and distances were highly variable, with pursuit time >60 min for 46% of hunts and pursuit distance >5 km for 30% of hunts. The probability of killing a pursued male and female deer were similar, and there was not a positive relationship between pack size and hunt success. The RSF showed that both male and female deer were more likely to be killed on steeper slopes and closer to roads.
Conclusions: Successful hound hunting of sambar deer involves pursuits of considerable duration and requires a network of roads, with geographical features associated with deer kills sites being related to hunter access.
Implications: Hound hunting may be a useful wildlife management tool for land managers, but further studies are needed to assess its efficacy for achieving management goals.
Keywords: animal welfare, anthropogenic impacts, domestic animals, human dimensions, introduced species, population control, stress, wildlife management.
References
Aebischer, NJ, Wheatley, CJ, and Rose, HR (2014). Factors associated with shooting accuracy and wounding rate of four managed wild deer species in the UK, based on anonymous field records from deer stalkers. PLoS ONE 9, e109698.| Factors associated with shooting accuracy and wounding rate of four managed wild deer species in the UK, based on anonymous field records from deer stalkers.Crossref | GoogleScholarGoogle Scholar |
Allen, BL, Allen, LR, Ballard, G, Drouilly, M, Fleming, PJS, Hampton, JO, Hayward, MW, Kerley, GIH, Meek, PD, Minnie, L, O’Riain, MJ, Parker, DM, and Somers, MJ (2019). Animal welfare considerations for using large carnivores and guardian dogs as vertebrate biocontrol tools against other animals. Biological Conservation 232, 258–270.
| Animal welfare considerations for using large carnivores and guardian dogs as vertebrate biocontrol tools against other animals.Crossref | GoogleScholarGoogle Scholar |
Australian Senate (2021) ‘Impact of feral deer, pigs and goats in Australia.’ (Australian Government: Canberra, ACT, Australia)
Bateson, P, and Bradshaw, EL (1997). Physiological effects of hunting red deer (Cervus elaphus). Proceedings of the Royal Society of London B: Biological Sciences 264, 1707–1714.
| Physiological effects of hunting red deer (Cervus elaphus).Crossref | GoogleScholarGoogle Scholar |
Bengsen, AJ, Forsyth, DM, Pople, A, Brennan, M, Amos, M, Leeson, M, Cox, TE, Gray, B, Orgill, O, Hampton, JO, and Crittle, T (2022). Effectiveness and costs of helicopter-based shooting of deer. Wildlife Research , .
| Effectiveness and costs of helicopter-based shooting of deer.Crossref | GoogleScholarGoogle Scholar |
Bentley, A (1957). A brief account of the deer in Australia. The Journal of Wildlife Management 21, 221–225.
| A brief account of the deer in Australia.Crossref | GoogleScholarGoogle Scholar |
Bongi, P, Ciuti, S, Grignolio, S, Del Frate, M, Simi, S, Gandelli, D, and Apollonio, M (2008). Anti-predator behaviour, space use and habitat selection in female roe deer during the fawning season in a wolf area. Journal of Zoology 276, 242–251.
| Anti-predator behaviour, space use and habitat selection in female roe deer during the fawning season in a wolf area.Crossref | GoogleScholarGoogle Scholar |
Bradshaw, EL, and Bateson, P (2000). Welfare implications of culling red deer (Cervus elaphus). Animal Welfare 9, 3–24.
Bureau of Animal Welfare (2017) ‘Code of practice for the welfare of animals in hunting.’ (Department of Jobs, Precincts and Regions: Melbourne, Vic., Australia)
Bureau of Meteorology (2021) ‘Average annual, seasonal and monthly rainfall.’ (Bureau of Meteorology: Melbourne, Vic., Australia)
Caley, P, and Ottley, B (1995). The effectiveness of hunting dogs for removing feral pigs (Sus scrofa). Wildlife Research 22, 147–154.
| The effectiveness of hunting dogs for removing feral pigs (Sus scrofa).Crossref | GoogleScholarGoogle Scholar |
Cederlund G, Kjellander P (1991) Effects of chasing by hunting dogs on roe deer. In ‘Transactions of the 20th Congress of the International Union of Game Biologists’ (Eds S Csanyi, J Emhaft) pp. 363–370. (University of Agricultural Science: Gödöllö, Hungary)
Comte, S, Thomas, E, Bengsen, AJ, Bennett, A, Davis, NE, Brown, D, and Forsyth, DM (2022a). Cost-effectiveness of volunteer and contract ground-based shooting of sambar deer in Australia. Wildlife Research , .
| Cost-effectiveness of volunteer and contract ground-based shooting of sambar deer in Australia.Crossref | GoogleScholarGoogle Scholar |
Comte, S, Thomas, E, Bengsen, AJ, Bennett, A, Davis, NE, Freney, S, Jackson, SM, White, M, Forsyth, DM, and Brown, D (2022b). Seasonal and daily activity of non-native sambar deer in and around high-elevation peatlands, south-eastern Australia. Wildlife Research 49, 659–672.
| Seasonal and daily activity of non-native sambar deer in and around high-elevation peatlands, south-eastern Australia.Crossref | GoogleScholarGoogle Scholar |
Costermans LF (1981) ‘Native trees and shrubs of south-eastern Australia.’ (Rigby Publishers: London, UK)
Cruz, F, Donlan, CJ, Campbell, K, and Carrion, V (2005). Conservation action in the Galapagos: feral pig (Sus scrofa) eradication from Santiago Island. Biological Conservation 121, 473–478.
| Conservation action in the Galapagos: feral pig (Sus scrofa) eradication from Santiago Island.Crossref | GoogleScholarGoogle Scholar |
Davis, NE, Bennett, A, Forsyth, DM, Bowman, DMJS, Lefroy, EC, Wood, SW, Woolnough, AP, West, P, Hampton, JO, and Johnson, CN (2016). A systematic review of the impacts and management of introduced deer (family Cervidae) in Australia. Wildlife Research 43, 515–532.
| A systematic review of the impacts and management of introduced deer (family Cervidae) in Australia.Crossref | GoogleScholarGoogle Scholar |
Davis, PB, Munn, IA, Henderson, JE, and Strickland, BK (2017). Economic tradeoffs of managing for timber production or wildlife habitat. The Journal of Wildlife Management 81, 1363–1371.
Denwood, MJ (2016). Runjags: An R package providing interface utilities, model templates, parallel computing methods and additional distributions for MCMC models in JAGS. Journal of Statistical Software 71, 1–25.
| Runjags: An R package providing interface utilities, model templates, parallel computing methods and additional distributions for MCMC models in JAGS.Crossref | GoogleScholarGoogle Scholar |
Diefenbach, DR, Finley, JC, Luloff, AE, Stedman, R, Swope, CB, Zinn, HC, and San Julian, GJ (2005). Bear and deer hunter density and distribution on public land in Pennsylvania. Human Dimensions of Wildlife 10, 201–212.
| Bear and deer hunter density and distribution on public land in Pennsylvania.Crossref | GoogleScholarGoogle Scholar |
Forsyth DM, Bilney RJ, Bennett A (in press) Sambar deer. In ‘Strahan’s Mammals of Australia’. (Eds A Baker, I Gynther) (New Holland Publishers: Sydney, NSW, Australia)
Forsyth, DM, Woodford, L, Moloney, PD, Hampton, JO, Woolnough, AP, and Tucker, M (2014). How does a carnivore guild utilise a substantial but unpredictable anthropogenic food source? Scavenging on hunter-shot ungulate carcasses by wild dogs/dingoes, red foxes and feral cats in south-eastern Australia revealed by camera traps. PLoS ONE 9, e97937.
| How does a carnivore guild utilise a substantial but unpredictable anthropogenic food source? Scavenging on hunter-shot ungulate carcasses by wild dogs/dingoes, red foxes and feral cats in south-eastern Australia revealed by camera traps.Crossref | GoogleScholarGoogle Scholar |
Forsyth DM, Stamation K, Woodford L (2015) ‘Distributions of sambar deer, rusa deer and sika deer in Victoria.’ (Arthur Rylah Institute: Melbourne, Vic., Australia)
Forsyth DM, Pople T, Page B, Moriarty A, Ramsey D, Parkes J, Wiebkin A, Lane C (Eds) (2017) ‘2016 National Wild Deer Management Workshop Proceedings’, 17–18 November 2016, Adelaide, SA, Australia. (Invasive Animals Cooperative Research Centre: Canberra, ACT, Australia)
Forsyth, DM, Caley, P, Davis, NE, Latham, ADM, Woolnough, AP, Woodford, LP, Stamation, KA, Moloney, PD, and Pascoe, C (2018). Functional responses of an apex predator and a mesopredator to an invading ungulate: dingoes, red foxes and sambar deer in south-east Australia. Austral Ecology 43, 375–384.
Forsyth, DM, Latham, ADM, Davis, NE, Caley, P, Letnic, M, Moloney, PD, Woodford, LP, and Woolnough, AP (2019). Interactions between dingoes and introduced wild ungulates in Australia: concepts, evidence and predictions. Australian Mammalogy 41, 12–26.
| Interactions between dingoes and introduced wild ungulates in Australia: concepts, evidence and predictions.Crossref | GoogleScholarGoogle Scholar |
Game Management Authority (2014) ‘A guide to the use of hounds for hunting sambar deer in Victoria.’ (Game Management Authority: Melbourne, Vic., Australia)
Gelman, A, and Rubin, DB (1992). Inference from iterative simulation using multiple sequences. Statistical Science 7, 457–472.
| Inference from iterative simulation using multiple sequences.Crossref | GoogleScholarGoogle Scholar |
Gentsch, RP, Kjellander, P, and Röken, BO (2018). Cortisol response of wild ungulates to trauma situations: hunting is not necessarily the worst stressor. European Journal of Wildlife Research 64, 11.
| Cortisol response of wild ungulates to trauma situations: hunting is not necessarily the worst stressor.Crossref | GoogleScholarGoogle Scholar |
Godwin, C, Schaefer, JA, Patterson, BR, and Pond, BA (2013). Contribution of dogs to white-tailed deer hunting success. The Journal of Wildlife Management 77, 290–296.
| Contribution of dogs to white-tailed deer hunting success.Crossref | GoogleScholarGoogle Scholar |
Gormley, AM, Forsyth, DM, Griffioen, P, Lindeman, M, Ramsey, DSL, Scroggie, MP, and Woodford, L (2011). Using presence-only and presence–absence data to estimate the current and potential distributions of established invasive species. Journal of Applied Ecology 48, 25–34.
| Using presence-only and presence–absence data to estimate the current and potential distributions of established invasive species.Crossref | GoogleScholarGoogle Scholar |
Græsli, AR, Le Grand, L, Thiel, A, Fuchs, B, Devineau, O, Stenbacka, F, Neumann, W, Ericsson, G, Singh, NJ, Laske, TG, Beumer, LT, Arnemo, JM, Evans, AL, and Cooke, S (2020). Physiological and behavioural responses of moose to hunting with dogs. Conservation Physiology 8, coaa122.
| Physiological and behavioural responses of moose to hunting with dogs.Crossref | GoogleScholarGoogle Scholar |
Hampton, JO, and Hyndman, TH (2019). Underaddressed animal-welfare issues in conservation. Conservation Biology 33, 803–811.
| Underaddressed animal-welfare issues in conservation.Crossref | GoogleScholarGoogle Scholar |
Hampton, JO, MacKenzie, DI, and Forsyth, DM (2019). How many to sample? Statistical guidelines for monitoring animal welfare outcomes. PLoS ONE 14, e0211417.
| How many to sample? Statistical guidelines for monitoring animal welfare outcomes.Crossref | GoogleScholarGoogle Scholar |
Hampton, JO, Bengsen, AJ, Pople, A, Brennan, M, Leeson, M, and Forsyth, DM (2022a). Animal welfare outcomes of helicopter-based shooting of deer in Australia. Wildlife Research 49, 264–273.
| Animal welfare outcomes of helicopter-based shooting of deer in Australia.Crossref | GoogleScholarGoogle Scholar |
Hampton, JO, Bengsen, AJ, Flesch, JS, Toop, SD, Davies, C, Forsyth, DM, Kanstrup, N, Stokke, S, and Arnemo, JM (2022b). A comparison of lead-based and lead-free bullets for shooting of sambar deer (Cervus unicolor) in Australia. Wildlife Research , .
| A comparison of lead-based and lead-free bullets for shooting of sambar deer (Cervus unicolor) in Australia.Crossref | GoogleScholarGoogle Scholar |
Hampton, JO, MacKenzie, DI, and Forsyth, DM (2022c). Animal welfare outcomes of professional vehicle-based shooting of peri-urban rusa deer in Australia. Wildlife Research , .
| Animal welfare outcomes of professional vehicle-based shooting of peri-urban rusa deer in Australia.Crossref | GoogleScholarGoogle Scholar |
Harrison M (2010) ‘Sambar: the magnificent deer.’ (The Australian Deer Research Foundation: Melbourne, Vic., Australia)
Hayward, MW, Jędrzejewski, W, and Jêdrzejewska, B (2012). Prey preferences of the tiger Panthera tigris. Journal of Zoology 286, 221–231.
| Prey preferences of the tiger Panthera tigris.Crossref | GoogleScholarGoogle Scholar |
Kaplan, EL, and Meier, P (1958). Nonparametric estimation from incomplete observations. Journal of the American Statistical Association 53, 457–481.
| Nonparametric estimation from incomplete observations.Crossref | GoogleScholarGoogle Scholar |
Kerr, GN, and Abell, W (2014). Big game hunting in New Zealand: per capita effort, harvest and expenditure in 2011–2012. New Zealand Journal of Zoology 41, 124–138.
| Big game hunting in New Zealand: per capita effort, harvest and expenditure in 2011–2012.Crossref | GoogleScholarGoogle Scholar |
Le Grand, L, Thorsen, NH, Fuchs, B, Evans, AL, Laske, TG, Arnemo, JM, Saebø, S, and Støen, O-G (2019). Behavioral and physiological responses of Scandinavian brown bears (Ursus arctos) to dog hunts and human encounters. Frontiers in Ecology and Evolution 7, 134.
| Behavioral and physiological responses of Scandinavian brown bears (Ursus arctos) to dog hunts and human encounters.Crossref | GoogleScholarGoogle Scholar |
Lebel, F, Dussault, C, Massé, A, and Côté, SD (2012). Influence of habitat features and hunter behavior on white-tailed deer harvest. The Journal of Wildlife Management 76, 1431–1440.
| Influence of habitat features and hunter behavior on white-tailed deer harvest.Crossref | GoogleScholarGoogle Scholar |
Leslie, DM (2011). Rusa unicolor (Artiodactyla: Cervidae). Mammalian Species 43, 1–30.
| Rusa unicolor (Artiodactyla: Cervidae).Crossref | GoogleScholarGoogle Scholar |
Lone, K, Loe, LE, Gobakken, T, Linnell, JDC, Odden, J, Remmen, J, and Mysterud, A (2014). Living and dying in a multi-predator landscape of fear: roe deer are squeezed by contrasting pattern of predation risk imposed by lynx and humans. Oikos 123, 641–651.
| Living and dying in a multi-predator landscape of fear: roe deer are squeezed by contrasting pattern of predation risk imposed by lynx and humans.Crossref | GoogleScholarGoogle Scholar |
Long J (2003) ‘Introduced Mammals of the World.’ (CSIRO Publishing: Melbourne, Vic., Australia)
Macdonald N, Nugent G, Edge K-A, Parkes JP (2019) Eradication of red deer from Secretary Island, New Zealand: changing tactics to achieve success. In ‘Island invasives: scaling up to meet the challenge’. (Eds CR Veitch, MN Clout, AR Martin, JC Russell, CJ West) pp. 256–260. (IUCN: Gland, Switzerland)
Mason E (2008) ‘Secrets of the Sambar.’ (Shikari Press: Bairnsdale, Vic., Australia)
Moloney PD, Hampton JO (2020) ‘Estimates of the 2019 deer harvest in Victoria: results from surveys of Victorian Game Licence holders in 2019.’ (Game Management Authority: Melbourne, Vic., Australia)
Moloney, PD, Gormley, AM, Toop, SD, Flesch, JS, Forsyth, DM, Ramsey, DSL, and Hampton, JO (2022). Bayesian modelling reveals differences in long-term trends in the harvest of native and introduced species by recreational hunters in Australia. Wildlife Research 49, 673–685.
| Bayesian modelling reveals differences in long-term trends in the harvest of native and introduced species by recreational hunters in Australia.Crossref | GoogleScholarGoogle Scholar |
Northrup, JM, Hooten, MB, Anderson, CR, and Wittemyer, G (2013). Practical guidance on characterizing availability in resource selection functions under a use–availability design. Ecology 94, 1456–1463.
| Practical guidance on characterizing availability in resource selection functions under a use–availability design.Crossref | GoogleScholarGoogle Scholar |
Orr, B, Westman, M, Malik, R, and Norris, J (2019). The welfare of pig-hunting dogs in Australia. Animals 9, 853.
| The welfare of pig-hunting dogs in Australia.Crossref | GoogleScholarGoogle Scholar |
Plummer M (2003) JAGS: a program for analysis of Bayesian graphical models using Gibbs sampling. In ‘Proceedings of the 3rd International Workshop on Distributed Statistical Computing (DSC 2003)’, 20–22 March 2003, Vienna, Austria. (Eds K Hornik, F Leisch, A Zeileis) pp. 1–8. (Technische Universität Wien: Vienna, Austria)
Ramesh, T, Sankar, K, Qureshi, Q, and Kalle, R (2012). Group size, sex and age composition of chital (Axis axis) and sambar (Rusa unicolor) in a deciduous habitat of Western Ghats. Mammalian Biology 77, 53–59.
| Group size, sex and age composition of chital (Axis axis) and sambar (Rusa unicolor) in a deciduous habitat of Western Ghats.Crossref | GoogleScholarGoogle Scholar |
R Core Team (2020) ‘R: A language and environment for statistical computing.’ (R Foundation for Statistical Computing: Vienna, Austria). Available at https://www.R-project.org/ [verified 3 September 2021]
Rowland, MM, Nielson, RM, Wisdom, MJ, Johnson, BK, Findholt, S, Clark, D, Didonato, GT, Hafer, JM, and Naylor, BJ (2021). Influence of landscape characteristics on hunter space use and success. The Journal of Wildlife Management 85, 1394–1409.
| Influence of landscape characteristics on hunter space use and success.Crossref | GoogleScholarGoogle Scholar |
Sauerwein, H, Müller, U, Brüssel, H, Lutz, W, and Mstl, E (2004). Establishing baseline values of parameters potentially indicative of chronic stress in red deer (Cervus elaphus) from different habitats in western Germany. European Journal of Wildlife Research 50, 168–172.
| Establishing baseline values of parameters potentially indicative of chronic stress in red deer (Cervus elaphus) from different habitats in western Germany.Crossref | GoogleScholarGoogle Scholar |
Sepúlveda, M, Pelican, K, Cross, P, Eguren, A, and Singer, R (2015). Fine-scale movements of rural free-ranging dogs in conservation areas in the temperate rainforest of the coastal range of southern Chile. Mammalian Biology 80, 290–297.
| Fine-scale movements of rural free-ranging dogs in conservation areas in the temperate rainforest of the coastal range of southern Chile.Crossref | GoogleScholarGoogle Scholar |
Steyaert, SMJG, Zedrosser, A, Elfström, M, Ordiz, A, Leclerc, M, Frank, SC, Kindberg, J, Støen, OG, Brunberg, S, and Swenson, JE (2016). Ecological implications from spatial patterns in human-caused brown bear mortality. Wildlife Biology 22, 144–152.
| Ecological implications from spatial patterns in human-caused brown bear mortality.Crossref | GoogleScholarGoogle Scholar |
Stokke, S, Arnemo, JM, Brainerd, S, Söderberg, A, Kraabøl, M, and Ytrehus, B (2018). Defining animal welfare standards in hunting: body mass determines thresholds for incapacitation time and flight distance. Scientific Reports 8, 13786.
| Defining animal welfare standards in hunting: body mass determines thresholds for incapacitation time and flight distance.Crossref | GoogleScholarGoogle Scholar |
Therneau T (2020) ‘A Package for Survival Analysis in R; R Package Version 3.2-7.’ Availabe at https://cran.r-project.org/web/packages/survival/index.html [verified 17 November 2022]
Vaughan, MR, and Inman, KLH (2002). Hunter effort and success rates of hunting bears with hounds in Virginia. Ursus 13, 223–230.
Watter, K, Thomas, E, White, N, Finch, N, and Murray, P (2020). Reproductive seasonality and rate of increase of wild sambar deer (Rusa unicolor) in a new environment, Victoria, Australia. Animal Reproduction Science 223, 106630.
| Reproductive seasonality and rate of increase of wild sambar deer (Rusa unicolor) in a new environment, Victoria, Australia.Crossref | GoogleScholarGoogle Scholar |